DE102007039932A1 - Control device i.e. mouse, has idler wheel with outer part formed by metal and moire surface, pivoting arm configured to pivot on direction for moving away from surface, and user-operated device configured to move horizontally and pivot arm - Google Patents

Abstract

The device has an idler wheel with an outer part formed by a metal and a moire surface. A pivoting arm is configured to pivot on a direction for moving away from the moire surface, and a user-operated device is configured to move horizontally and pivot the pivoting arm. The user-operated device has a slider which is configured to slide between places when sliding to pivot the pivoting arm. A slider axis and a camshaft are coupled on the slider, where the camshaft comprises a cam which is configured to pull the pivoting arm, when the camshaft is rotated by the slider. An independent claim is also included for a roller.

Description

BACKGROUND OF THE INVENTION

The The present invention generally relates to a control device such as. a mouse, and in particular relates to a role with several Operating modes for a controller with a selectable mode with smoother Roller and a mode with pawl roller.

control devices for computers and the like typically include mice, keyboards, control levers, Touchpads and the like for the computer control. These control devices will typically used to control computer applications that are typically comprise graphic objects controlled by the control device can be. Typical control devices often include a role for computer application control, such as. Scroll of graphic objects on the monitor of the computer. Traditional roles look limited Options for scrolling through relatively long documents, e.g. multipage Documents before. solutions for one relatively fast scrolling on several pages have traditionally the Control of a graphic object included, e.g. Select and Drag a scroll bar, press of scroll keys or the like. These conventional multi-page scrolling solutions include several Operations of the control device to these graphic objects to control. Other solutions for multi-page Relatively high rate scrolling includes accelerated scrolling, which is controlled by the control device, for example via detection a relatively fast reel turn, and providing a accelerated scrolling based on the detected fast scroll rotation.

It There are several different designs for such roles on a mouse or another device. Examples include patent no. No. 5,289,919 of Multipoint Technology Corporation, Patent No. 5,988,919. 5,473,344 to Microsoft, Patent Nos. 5,313,230 and 5,095,303 by Apple Computer, Patent Nos. 5,530,455 and 5,446,481 of Mouse Systems, Patent No. 5,808,568 to Primax Electronics and Patent No. 6,157,369 to Logitech.

New Rollers are required which have a locked scroll and smooth Scroll for a relatively fast computer control, e.g. a relatively fast Provide scrolling through a document.

BRIEF SUMMARY OF THE INVENTION

The The present invention generally provides a control device such as. a mouse ready and in particular has a role several operating modes for a controller with a selectable mode with smoother Roller and a mode with pawl roller ready.

According to one embodiment According to the present invention, the roller comprises a roller wheel with an outer part, which is formed of metal, and a ribbed surface; one Swivel arm adapted to pivot in a first direction around the ribbed surface to touch, and to pivot in a second direction to get rid of the ribbed surface to move away; and a user-operated facility that is designed to pivot the swing arm. According to a specific embodiment For example, the user-operated device includes a sliding member that is designed to be between a first position and a second Move position to swing the swing arm. The sliding element is over the floor area of the control unit accessible. According to one another specific embodiment the user-operated device a sliding shaft coupled to the sliding member, wherein the Sliding shaft is designed to rotate while the sliding link between the first position and the second position is moved to to swing the swivel arm. According to one more another special embodiment The user-operated device includes a camshaft which the sliding shaft is coupled, and the camshaft comprises a Cam designed to push the pivot arm about the pivot arm to pan while The camshaft is rotated by the sliding shaft.

The Sliding shaft has a first end with a first shape and the camshaft has a first end with a second shape, and the first shape and the second form complementary are. The camshaft has an opening formed therein Receiving a first end of the sliding shaft and the opening is sufficiently deep so that when the roller wheel is pushed down, to operate an actuator, the sliding shaft does not touch a bottom of the opening.

According to another specific embodiment, the control device further comprises a printed circuit board coupled to the roller wheel; a carriage designed to support the wheel; and first and second actuators coupled to the printed circuit board. The carriage is adapted for lateral tilting in a first direction under the action of a first lateral thrust force to actuate the first actuator and for lateral tilting in a second direction under the action of a second lateral thrust force to actuate the second actuator. The lateral tilting of the car is essentially perpendicular to a pivoting direction of the carriage.

According to one another special embodiment when the pivot arm contacts the ribbed surface, the roller wheel is adapted to pass through to lock the pivot arm and the ribbed surface, while the role is turned. When the swivel arm is away from the ribbed surface is moved, the roller wheel is designed to rotate after to a user push force applied to the roller wheel. If the roller wheel is designed to rotate after to continue the pushing force applied by the user on the roller wheel, The roller wheel is designed to continue the rotation to one on to scroll through the computer display displayed document while the Roller wheel turns. The ribbed surface may be on an inside the roller wheel or formed on the side surface of the roller wheel be.

According to one another embodiment The swing arm comprises a bearing coupled thereto and the storage area The swing arm is designed to touch the ribbed surface when the swing arm is pivoted in the first direction, and the bearing is designed not to touch the ribbed surface when the swing arm is pivoted in the second direction. The swivel arm may further comprise a spring configured to support the bearing to press in contact with the ribbed surface when the swivel arm is in the first direction is pivoted.

According to one another embodiment According to the present invention, a mouse comprises a carriage with a formed in the opening and a roller wheel rotatably coupled to the carriage and at least partly in the opening is arranged. The roller wheel includes an outer area made of metal is formed and a ribbed surface. The mouse further includes a pivot arm which is pivotally coupled to the carriage and designed to pivot in a first direction to the ribbed surface to touch, and designed to pivot in a second direction to itself from the ribbed surface move away, and a cam, which is slidable on the swivel arm is coupled and rotatably coupled to the car. If the cam is rotated, the cam is designed to pivot the pivot arm. The mouse further includes a user-operated device, which is designed to rotate the cam. The swivel arm can Bearings designed to contact the ribbed surface. Of the Swivel arm may further include a coupled to the bearing spring device comprise, wherein the spring device is designed, the bearing in the ribbed surface to press to cause engagement of the roller wheel when the roller wheel is turned. The pivot arm may further include a damper, which is coupled to the bearing and is designed to reduce the noise of in proportion to the ribbed surface to dampen the moving warehouse.

One better understanding The nature and advantages of the present invention may be understood with reference to the following detailed Description and the associated Drawings are obtained.

BRIEF DESCRIPTION OF THE DRAWINGS

1 Figure 10 is a simplified diagram of a mouse with a scroll and one or more control buttons in accordance with an embodiment of the present invention;

2 is a simplified diagram of a mouse control system;

3A and 3B Fig. 2 are simplified front and rear views of the roller according to one embodiment of the present invention;

4 Figure 13 is a partially exploded view of the roll;

5 is another view of the role in an exploded arrangement;

6 Fig. 10 is a simplified diagram of a control system according to an alternative embodiment of the present invention; and

7 Figure 5 is a simplified graph of the current drawn by the DC motor when the arm is rotated away from the ribbed surface or toward the ribbed surface.

8th Fig. 12 is a simplified perspective view of a lower housing part of a mouse according to an embodiment of the present invention;

9A and 9B Fig. 2 are simplified schematic views of a lower surface and an upper surface of the lower casing member according to an embodiment of the present invention;

10 is a bottom view of the in 8th represented role; and

11 is a side view of in 8th represented role.

DETAILED DESCRIPTION OF THE INVENTION

The The present invention generally provides a control device like a mouse ready and puts in particular a role with several Operating modes for a controller with a selectable mode with smoother Roller and a mode with pawl roller ready.

1 is a simplified diagram of a mouse 100 with a roll 105 and one or more control buttons 110 according to an embodiment of the present invention. The mouse 100 may also include a detector and encoder (not shown) for detecting movement of the mouse relative to a surface such as a table top or the like. Such detectors and encoders are well known in the art and will not be described in detail herein. The mouse may be configured to send and / or receive control commands to or from a computer by wire or wireless. The control commands can be generated by the movement of the mouse relative to the table surface, by the roll rotation, key clicks or the like. The mouse commands may be used to control graphical objects, data objects or other computer applications running on the computer via the control commands. For example, the reel may be configured to be rotated by a user to scroll through a document. The term "document" as referred to herein may or may not currently include a variety of graphical objects, such as text documents, tables, drawings, code, various records that may be used by the computer, web pages, and other documents that are well known to those skilled in the art in use include.

2 is a simplified diagram of a control system 200 the mouse 100 , The tax system 200 can a printed circuit board (PCB) 205 include that through a power source 210 is fed. The control system may further include a processor (eg, a microcontroller). 215 , a store 220 , a transmitter (or transceiver, eg with wire or wireless) 225 and a roller detection and encoder circuit 230 include. These elements of the control system can be over a bus 235 be coupled. The control system, and in particular the printed circuit board, may include other electronic modules as will be understood by those skilled in the art.

3A and 3B are simplified front and rear views of the roll 105 according to an embodiment of the present invention. The role 105 is designed to provide snapped scrolling and smooth scrolling. To provide snapped scrolling and smooth scrolling, the scroll may be configured to switch between a pawl scroll mode and a smooth scroll mode. These scrolling modes may be switched on demand of the user, via a particular use of the reel, based on the application the computer is processing, based on the reel speed of the reel and / or a combination of the previous ones.

According to one embodiment, the roll comprises 105 a roller wheel 300 on a roll cart 305 is rotatably mounted and adapted to rotate in response to a rotational thrust force of a user. The roller wheel may be in a substantially central opening 306 be mounted on the roller carriage. The roller carriage can be attached to the printed circuit board 215 or another type of support structure, such as the mouse's lower housing or on another surface of the mouse. The roller wheel 300 and the car 305 may be designed to tilt to the right and left as indicated by the arrow 315 specified. In particular, the car may be with a front hinge bracket 320 and a mounting post 325 (please refer 4 ). The car 305 Can with the front hinge bracket via a fastening device 327 such as a screw or similar coupling device coupled. The carriage may be relatively loosely coupled to the front hinge bracket so that the carriage can be tilted relative to the front hinge bracket. For example, under lateral thrust applied by a user, the carriage may be configured to tilt to the right or left relative to the front hinge mount. The role can be a hinge pin 330 comprise, which is adapted to rotatably support the carriage on a lower surface of the carriage. The hinge pin may further rotatably support the carriage when the carriage is tilted. The car, which is tilted to the right or left, is designed to each have a switch 335 or 340 to activate. The switches 335 and 340 may be activated by arms (not shown) coupled to the carriage. Alternatively, the switches may be actuated by selectively positioning the switches relative to the carriage, such as under the carriage or the like. The switches 335 and 340 can be single-stage switches or multi-stage switches. When the switches 335 and 340 For example, if there are multi-stage switches, a first stage of these switches can be activated with a first force (eg 30-50 grams) and a second stage of these switches can be activated by a second force (eg 60-100 grams). The second stage of the switch 335 and 340 Alternatively, it may be an analog stage designed to detect a substantially continuous force range and output signals according to various detected forces.

According to another embodiment of the present invention, the roller wheel and the carriage may be designed to be "down" (by an arrow 344 indicated) are pressed to a switch 345 to operate, which can be arranged in the direction of the "back" of the car and under the car. Under the action of the downward force, the carriage may be designed to rotate downwardly about the front hinge bracket. A rear joint guide 347 , in the 4 can be designed to fit with a slot 348 engaged in the rear of the carriage to guide the carriage up and down when the roller wheel is pressed down and released. The roller can be moved from the down position by a return spring 349 , in the 5 is shown, or the like, which may be arranged under the carriage and may be designed so that it pushes the carriage from the downward position, are reset. The desk 345 may be a single-stage switch or a multi-stage switch as described above. The desk 345 For example, in a first activation stage, it may be configured to select a graphical object displayed on the display of the computer, as known in the art, and to change the mode of operation of the roller wheel in a second stage. For example, activation of the second stage of the switch may be arranged to initiate the change between the pawl scroll mode and the smooth scroll mode. The change between these modes will be described in more detail below.

Roller wheel rotations can be coded by a variety of device types and methods. Roller wheel rotations may be, for example, optically encoded, mechanically encoded, magnetically encoded or the like. According to the embodiment of the roller wheel, the in 3A and 3B is shown, roller wheel rotations are optically encoded. In particular, the role of a radiation source 410 (such as a photodiode, a diode laser, etc.) and a photodetector (not shown). The radiation source may be adapted to a set of slots 415 to illuminate in a central section 420 the roller are arranged so that as the slots rotate past the radiation source, the intensity of the radiation reaching the photodetector increases and decreases to effect the encoding. According to an alternative embodiment, the central part of the roller wheel may comprise alternating light reflection and light absorption regions, and the radiation source and the photodetector may be arranged on the same side of the roller wheel, the photodetector detecting the varying intensity of light reflected from the light reflection regions and the light absorption region , detected to encode the roller wheel rotations.

According to one embodiment, the roller wheel has 300 a relatively large mass and / or a relatively large moment of inertia. The roller wheel may, for example, an outer roller portion 350 which may be metal such as brass, and a central part 420 which may be metal, plastic or the like. The outer roller portion may include a trench 360 in which a relatively soft insert 365 can be arranged. The use 365 may be a rubbery material that feels soft and provides a surface on which the user's finger grips when the user rotationally slides on the roller wheel. The roll may be plated (eg, with chrome, nickel, steel, gold, etc.) to provide an aesthetically pleasing surface finish.

The central section 420 The roller wheel can have a ribbed surface 370 and the roll can have a swivel arm (or "arm") 380 which is adapted to contact and slide over the ribbed surface when the roller wheel is rotated to provide a latching force on the roller wheel. The arm 380 may be designed to be moved away from the ribbed surface (eg by pivoting about a pivot point) 383 swiveling) so that the arm does not touch the ribbed surface when the roller wheel is rotated. The arm may be moved away from the ribbed surface by a variety of energy activated devices. According to a specific embodiment, the roller comprises a DC motor 385 which is located towards the back of the roll and at a warehouse 387 of the car can be mounted. The DC motor is designed to be a cam 390 to rotate, which is rotatably coupled to the bearing. The cam is designed to become an upper part of the arm 380 to rotate and slide against it to push the arm away from the ribbed surface. When the arm is moved away from the ribbed surface, the roller wheel is in the smooth roll mode. That is, no latching force is applied to the roller wheel when the wheel is rotated. A feather 395 may be configured to re-contact the arm with the ribbed surface when the cam is rotated so that the arm is not pushed away from the ribbed surface. Although the activation device for moving the arm away from the ribbed surface is described above as a DC motor, other devices may be used to move the arm away from the ribbed surface, such as a solenoid coupled to the arm, rotatable magnets, electromagnets, a slide member that the user can slide (eg, from a lower surface of the mouse), a screw that the user can rotate, a motorized solenoid (such as those used in digital cameras), a voice coil, an electromagnet, or the like. Each of these devices may be coupled to the arm to pivot the arm as described above. Although the arm has been described as contacting the ribbed surface to effect latching, in one embodiment the arm may further include a spring 397 (please refer 5 ), which is designed to be a bearing 398 or the like with the ribbed surface in contact to provide the engagement. The warehouse 398 is designed to slide and / or roll over the corrugation to provide a latching force that increases and decreases relatively briskly as the bearing can follow the corrugations evenly. Such sliding and / or rolling provides a force profile against the ribs which limits the amount of "free" forward or backward movement that the roller wheel can perform without. The free movement includes the movement of the roller wheel, wherein the roller wheel can move forward or backward while it is not in contact with the bearing. Such free movement is sometimes referred to as sloshing or sloshing. Reducing the free motion provides a relatively accurate or "lively" latching force. According to one embodiment, the bearing is disposed in a damping material to dampen the vibration and the noise of sliding and / or rolling of the bearing over the corrugations as the roller wheel is rotated. Reducing such vibrations and noise in the bearing, in turn, reduces vibration and noise in the arm, the scroll and the mouse. The damping material may comprise a soft rubbery material, a foam material or the like. According to yet another alternative, the arm 380 be adapted to move a leaf spring or the like with the ribbed surface in and out of a latching contact. Those skilled in the art will be aware of other devices for providing latching and are considered to be within the scope and scope of the invention.

According to a further embodiment, the arm 380 driven by the DC motor through a gear (eg, as compared to a cam drive) to move the arm away from and in contact with the ribbed surface. For example, the DC motor may be horizontal (as compared to vertical, as in FIG 3A and 3B shown) and coupled to the arm by a gear to pivot the arm.

According to one embodiment, a first actuation of the switch 345 trigger the DC motor to switch the roller from the pawl roll mode to the smooth roll mode, and a second actuation of the switch 345 may trigger the DC motor to switch from the smooth roll mode to the pawl roll mode again. Alternatively, the smooth roll mode may be entered based on the scroll wheel scroll speed. For example, if the rotational speed of the roller wheel is at or above a given rotational speed, the processor may trigger the DC motor to switch from pawl roller mode to smooth-roller mode. Alternatively, the smooth roll mode may be entered if the roller wheel is rotated at or above the given rate and rotated at that rate for a given time. In another alternative, the smooth-roll mode may be entered based on the particular application the computer is running. Based on the particular application the computer is processing, the computer may send a signal to the mouse processor to control the DC motor to switch from the pawl mode to the smooth-roll mode.

6 is a simplified diagram of a control system 200 ' according to an alternative embodiment of the present invention. The same numerical scheme used above is used to identify the same or substantially similar elements of the control system. The tax system 200 ' differs from the control system described above 200 in that the tax system 200 ' a power knife 600 which is adapted to detect the amount of current drawn by the DC motor. The DC motor draws out a relatively low current before and after pivoting the arm 380 and takes out relatively high current while the arm is rotated. 7 Figure 10 is a simplified graph of the current drawn by the DC motor as the arm is rotated away from the ribbed surface or toward the ribbed surface. As the DC motor begins to pivot the arm (area A), the motor begins to draw current and this current drain continues to a peak (range B) where the arm is substantially rotated. After the arm is turned, the current drain of the motor drops off (area C). According to one embodiment, a signal output from the ammeter, which is proportional to the current drain, is monitored by the processor. The processor is designed to stop the flow of current from the power source to the DC motor once the arm has rotated. The processor may be configured to include a switch 605 or the like to open to stop the flow of current. The desk 605 can one electromechanical switch, a semiconductor switch or the like. Interrupting current flow to the DC motor after arm rotation prevents unwanted current drain by the motor and serves to preserve battery life, for example, when the mouse is a wireless controller. Monitoring the current drain of the DC motor further provides that the current drawn by the DC motor is not interrupted before the arm is fully rotated. Further, the monitoring of the current provides that, as the cam and various other parts of the roller wear with use, the arm can be continuously fully rotated to effect the pawl roll mode or smooth roll mode without the concern of such wear.

According to one embodiment, the roll comprises a buffer 399 (please refer 3B ), which can be relatively soft. The buffer may be adjacent to the cam 390 and may be configured to contact the buffer at the end of its rotation to dampen the vibration of the cam when its rotation is stopped. Even though 3B For example, if the roll includes a single buffer, the roll may include additional bumpers adjacent the cam to further damp the vibration.

In In the smooth roll mode, the roller wheel may continue to move Turn as soon as the roller wheel is pushed by the user to rotate becomes. When the roller wheel has a relatively large mass and / or a large moment of inertia has the role can rotate relatively long time. If the For example, a user goes through a document, such as a document. a text document, and the user pushes the roller wheel for rotation, the roller wheel rotates continue after the user stops pushing on the roller wheel, and the document will be for the longer Continue through the period. The user can touch the roller wheel to to stop the rotation of the roller wheel. The DC motor can be designed so that it acts as a braking device to the Rotation of the roller wheel to stop or to slow down the rotation. The DC motor, for example, can pivot the arm to the ribbed surface for one or several pawl pulses for engage various braking purposes. The roller wheel can for example, stopped at the bottom of a scrolled document become. Alternatively you can one or more pawl pulses applied to the roller wheel when the page breaks are traversed in a document.

According to one embodiment, an axis 425 the roller made of a relatively low-friction material to improve the rotation of the roller wheel in the mode with smooth roll. The axis may for example consist of steel. A hub part 430 The carriage supporting the axle may also be made of a relatively low friction material to enhance the rotation of the roller wheel. The hub may be plastic, polytetrafluoroethylene, steel or the like.

The latching force applied to the roller wheel by the arm is adjustable according to one embodiment. The latching force can be adjusted by the cam 390 "Partially" is turned to the swivel arm 380 turn "partially" in turn. About the partial pivoting of the arm 380 The arm can be moved incrementally away from the ribbed surface. Although the arm is partially moved away from the ribbed surface, the arm may still contact the ribbed surface but contact the corrugations to smaller extents and thereby apply a relatively lower force to the corrugations as the roller wheel is rotated. Applying the lower force to the corrugations provides a relatively lower latching force than if the arm were "fully" engaged with the corrugations. The extent of the latching force can be adjustable by the user. For example, a graphical user interface may be displayed on a computer display that allows the user to set the desired latching force. Alternatively, a slide member, screw, or the like may be disposed on the mouse (eg, on the lower surface) and coupled to the arm to allow the user to adjust the latching force to a desired level. Those skilled in the art will be aware of other devices that allow the user to adjust the latching force to a desired level.

In one embodiment, the roller wheel is designed to operate in a "tip" mode. In the jog mode, the reel can be rotated forward and backward from a central position by a given amount to effect document navigation, such as scrolling through a text document. Increasing the rotation or "tip" of the roll from the central position causes an increasing rate of document navigation. For example, when going through a text document, increased rotation of the roll from the central position increases the rate of document scrolling. In one embodiment, the jog mode is entered by pushing the roller wheel down to the switch 245 to operate, and the roller wheel is rotated from the central position. In one embodiment, the jog mode may be exited by removing the downward force on the roller wheel. According to an alternative embodiment, the jog mode may be based on one of the compu current special application, special type of navigated document or the like. According to yet another alternative, the jog mode may be entered by pressing and releasing the roller wheel to the switch 345 to press. The jog mode can be activated by a subsequent operation of the switch 345 to be left. It may be the case that the switch 345 a two-stage switch is as described above, and activation of the second stage of the switch is entered and left in the jog mode. A controller (eg, a mouse) that includes the reel may include a dedicated key or the like that is configured to switch the reel between the described reel modes. The jog mode may be a mode controlled by the processor in the mouse, or may be software running on the computer. For example, if the processor controls the jog mode, the mouse may be configured to send encoder signals to the computer, the encoder signals being specific to the jog mode. For example, a bit may be set in the encoded signals sent to the computer, the bit indicating that the encoded signals should be interpreted as jog mode signals. Alternatively, the computer (executing, for example, a particular application) may be configured to interpret encoded roll wheel rotation signals as inching mode signals.

8th is a simplified perspective view of the lower housing 800 a mouse, like the mouse 100 according to another embodiment of the present invention. To the lower case 800 is a printed circuit board 805 and a role 810 , For simplicity, the same numbering scheme that is used will be elements of the role 105 to designate the designation of identical or similar elements of the roll 810 used. The role 810 is designed to switch between pawl roll mode or smooth roll mode. The role 810 is different from the role 105 as described above by the fact that the role 810 is designed to manually switch between the pawl roll mode or smooth roll mode, as opposed to the roll 105 , which is designed to switch between these types of rollers by a DC motor or the like. Similar to the role 105 , includes the role 810 a roller wheel 300 rotatable on a roller carriage 305 is mounted and is adapted to rotate in response to a rotary motion of a user. The roller wheel can in the central opening of the roller carriage 305 be arranged.

9A and 9B are simplified views of a bottom surface 820 or an upper surface 822 of the lower case 800 according to an embodiment of the present invention. The lower surface 820 has a slot formed therein 825 in which a sliding link 830 is arranged. A sliding link 830 can be attached to a sliding shaft 815 be coupled. According to one embodiment, the sliding member 830 and the sliding shaft 815 integrally formed. The sliding member is designed between the ends of the slot 825 to the sliding shaft 815 to rotate. The sliding member may be slid between the ends of the slot by a user with a finger, with a writing tool or the like to adjust the sliding member.

According to one embodiment, a housing 840 coupled to the lower surface of the lower housing. The housing is adapted to receive the slide member and to allow the slide member to extend between the ends of the slot 825 to move under the action of a thrust. A range of devices may be coupled to the lower housing to restrict the slide member and to allow shifting of the slide member. This range of devices will be well known to those skilled in the art and is to be understood as within the scope and scope of the present invention.

10 is a bottom view of the roll 810 , The roller includes a rear housing 845 with an opening formed therein 850 , A camshaft 855 with a cam 860 is designed in the opening 850 to be arranged. A first end 857 The camshaft may be attached to a fastener, such as a screw 858 be coupled, which is designed, the camshaft in the opening 850 to keep. A second end 859 the camshaft is configured to be coupled to the sliding shaft so that when the sliding shaft is rotated by the sliding member, the rotation of the sliding shaft is transmitted to the camshaft. The second end of the camshaft has a shape (eg, round with a flat slot formed therein 865 ) which is complementary to the shape of the end of the sliding shaft. For example, the end of the sliding shaft (see 9B ) have the shape of a beam, which is substantially rectangular, so that the beam is designed, in the flat slot 865 to fit. The flat slot 865 the camshaft may be sufficiently deep so that when the roller wheel is pushed down (eg, clicked) to the rear button 867 on the printed circuit board, the beam end of the sliding shaft will not touch the bottom of the flat slot, and the roller wheel is not prevented from being pushed down to operate the rear button.

11 is a side view of a roll 810 , In the 11 shown side of the roll 810 is the opposite side of the in 8th shown role. As in 11 shown, includes the role 810 furthermore a swivel arm 380 which is adapted to be rotated by the cam forward or backward while the camshaft is rotated. Similar to the role 105 , is either the swivel arm or the bearing 398 (shown in 5 ) of the role 810 Designed to be moved to either with the ribbed surface 370 to be brought into contact with or moved away from, while the pivoting arm is pivoted forward or backward. With pivoting of the pivot arm in a forward position (ie pivoted away from the rear housing 845 ) about the cam pushing the swing arm forward is the roller wheel 300 designed to turn into smooth-running mode. With pivoting of the pivot arm in a rear position (ie to the rear housing 845 pivoted) is the roller wheel 300 designed to rotate in the pawl roll mode.

It should of course be that the examples and embodiments described above for explanatory purposes only serve and that given various modifications or changes of which experts are indicated and in the thoughts and scope This application and the scope of the appended claims should be. For example, although a described embodiment is a mouse The role can be found in a variety of control devices be included as e.g. a trackball, a keyboard, a Touchpad, a control lever or the like. According to one another embodiment For example, the roller wheel may be a relatively lightweight material, such as e.g. plastic and a flywheel with a relatively high mass (e.g., a metal flywheel) may be coupled to the roller wheel to provide the mass, the for the extended one Scroll is used in smooth-roll mode. The For example, flywheel may be coupled to an axle that the roller wheel is supported, or the flywheel may be on another axle support system can be arranged and connected to the roller wheel via a gear system, a Belt system, a cable drive system or the like coupled be. According to one more another example, although the ribbed surface as is described in the roller wheel, the ribbed surface itself located on another part of the roller wheel, such as e.g. on the Side of the roller wheel, at the central part of the roller wheel or the like. The ribbed surface may also be attached to a separate element such as e.g. on a disc, which is coupled to the axle, which supports the roller wheel, are located. The disk can be coupled with the axle directly or remotely. The disc could be parallel to the roller wheel or could be perpendicular to the roller wheel be. When the disc is so arranged, the arm can be designed to do so be to pair with the disc as needed to engage to effect, and the DC motor can be designed as needed be to swing the arm. The position and operation of the Arms and the DC motor for such slice positions are well known to those skilled in the art. Therefore, should the above description is not intended to limit the scope of the Invention as claimed defined, understood.

Claims (19)

Control device with: a roller wheel with an outer area, which is formed of metal, and a ribbed surface; one Swivel arm designed to be in a first direction pivot to touch the ribbed surface, and in a second Swing direction to get away from the ribbed surface to move; and a user-operated facility that designed to pivot the pivot arm. Control device according to claim 1, wherein the user-operated Setup includes a sliding link that is designed to stand between a first position and a second position to move to swing the swivel arm. Control device according to claim 2, wherein the sliding member via a lower surface the control device accessible is. Control device according to claim 2, wherein the user-operated Device includes a sliding shaft, which is coupled to a sliding link is, wherein the sliding shaft is designed to rotate while the Slide link between the first position and the second position is moved to pivot the swing arm. A control device according to claim 4, wherein: the user-operated device comprises a camshaft, the the sliding shaft is coupled, and the camshaft is a cam includes, which is adapted to push the pivot arm to the pivot arm to pan while The camshaft is rotated by the sliding shaft. Control device according to claim 5, wherein the sliding shaft a first end having a first shape and the camshaft a first end having a second shape, and the first shape and the second form complementary are. Control device according to claim 6, wherein the camshaft has an opening formed therein Receiving the first end of the sliding shaft, and the opening is sufficiently deep, so that when the roller wheel is pressed down to actuate an actuator, the sliding shaft does not touch the bottom of the opening. The control device of claim 1, further comprising: a printed circuit board coupled to the roller wheel; one Trolley designed to support the wheel; and first and second Actuators coupled to the printed circuit board; in which the carriage is designed under the action of a first lateral To tilt thrust laterally in a first direction to a first Actuator to operate, and laterally under the action of a second lateral thrust in a second direction to tilt to a second actuator actuate. Control device according to claim 8, wherein the lateral Tilting of the carriage substantially perpendicular to a pivoting direction the car is running. Control device according to claim 1, wherein, when the Swivel arm the ribbed surface touched, the roller wheel is designed so that it passes through the swivel arm and the ribbed surface is engaged when the roller is rotated, and wherein, if the Swing arm is moved away from the ribbed surface, the roller wheel is adapted to the rotation following a user push force, the is applied to the roller wheel to continue. A control device according to claim 10, wherein, when the role is designed to be the rotation following the user thrust, which is applied to the roller wheel to continue, the roller wheel is designed to continue to turn on to a computer display scroll through the displayed document while the roller wheel is rotating. Control device according to claim 1, wherein the control device is a mouse. Control device according to claim 1, wherein the ribbed surface on an inner surface of the Roller wheel is formed. Control device according to claim 1, wherein the swivel arm a bearing coupled thereto and the bearing area of the swing arm is designed to touch the ribbed surface when the gift arm in a first direction is pivoted, and the bearing is designed the ribbed surface not to touch, when the pivot arm is pivoted in a second direction. Control device according to claim 14, wherein the swivel arm further comprises a spring which is adapted to the bearing in Contact with the ribbed surface to press when the pivot arm is pivoted in a first direction. Mouse with: a carriage having an opening formed therein; one Roller wheel which is rotatably coupled to the car and at least partly in the opening is arranged, wherein the roller wheel formed an outer metal Area and a ribbed surface includes; a swivel arm, which is pivotally coupled to the car is and is designed to pivot in a first direction the ribbed surface to touch, and to pivot in a second direction to get away from the ribbed surface to move away; a cam, which is coupled to the swivel arm is and is rotatably coupled to the car, wherein, when the cam is rotated, the cam is adapted to pivot the pivot arm; and a user-operated device that is designed to turn the cam. A roller according to claim 16, wherein the pivot arm engages Includes bearing adapted to touch the ribbed surface. Roller according to claim 17, wherein the pivot arm of the Further, a spring device which is coupled to the bearing, comprising, wherein the spring means is adapted to the bearing in the ribbed surface to press to cause engagement of the roller wheel when the roller wheel is turned. Roller according to claim 17, wherein a pivot arm of the Furthermore, a damping device, which is coupled to the bearing comprises, in order to noise of the relative to ribbed surface to dampen moving bearings.